Search results for "Physics::Optics"

showing 10 items of 1958 documents

Above-bandgap ordinary optical properties of GaSe single crystal

2009

We report above-bandgap ordinary optical properties of ε-phase GaSe single crystal. Reference-quality pseudodielectric function 〈ε(E)〉 = 〈ε1(E)〉+i〈ε2(E)〉 and pseudorefractive index 〈N(E)〉 = 〈n(E)〉+i〈k(E)〉 spectra were measured by spectroscopic ellipsometry from 0.73 to 6.45 eV at room temperature for the light polarization perpendicular to the optic axis (math⊥math). The 〈ε〉 spectrum exhibited several interband-transition critical-point structures. Analysis of second-energy derivatives calculated numerically from the measured data yielded the critical-point energy values. Carmen.Martinez-Tomas@uv.es

EllipsometryCondensed matter physicsChemistryBand gapUNESCO::FÍSICAGallium compoundsRefractive indexCritical points ; Dielectric function ; Ellipsometry ; Energy gap ; Gallium compounds ; III-VI semiconductors ; Refractive indexIII-VI semiconductorsPhysics::OpticsGeneral Physics and AstronomyCritical pointsDielectric functionPolarization (waves)Spectral lineEnergy gapOptical axis:FÍSICA [UNESCO]EllipsometryPerpendicularRefractive indexSingle crystalJournal of Applied Physics
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The reflection coefficient of a flared microstrip line radiating in an infinite parallel-plate waveguide

1993

In this article the reflection coefficient of a tapered microstrip line radiating in an infinite parallel-plate conducting waveguide is calculated. The reflection coefficient at the feed line is evaluated by using the aperture admittance of the horn and the scattering matrix of the continuous taper. The theoretical behavior of the aperture admittance is shown and the reflection coefficient of a microstrip horn radiating in the parallel-plate region of a bootlace lens is measured in order to verify the model. © 1993 John Wiley & sons, Inc.

EngineeringAdmittancePhysics::Instrumentation and Detectorsbusiness.industryAperturePhysics::OpticsCondensed Matter PhysicsAtomic and Molecular Physics and OpticsMicrostripElectronic Optical and Magnetic Materialslaw.inventionOpticslawHorn (acoustic)Feed lineElectrical and Electronic EngineeringReflection coefficientbusinessWaveguideElectrical impedanceMicrowave and Optical Technology Letters
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<title>Evolution of optical links toward full-optical transparency</title>

2003

In this paper we review issues of evolution of optical networks towards their full optical transparency and present sequence of eliminating non-transparent elements out of optical links (networks). Architectures of optical commutators with electrical and optical cores have been presented, as well as a structure of OMO (optical-millimeter wave-optical) switching fabric. An example of pure al-optical switch, made by Luxcore, utilizing dispersion compensating elements, wavelength converters and and variable optical attenuators (VOA) operating entirely in optical domain without optical-electrical-optical (OEO) conversions, was quoted. We brought up an issue of all-optical 3R signal regeneration…

EngineeringOptical Transport Networkbusiness.industryOptical cross-connectOptical transistorElectronic engineeringPhysics::OpticsOptical performance monitoringbusinessOptical switchOptical add-drop multiplexerSignal regenerationOptical communications repeaterSPIE Proceedings
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Efficient software tool for the analysis of planar-based metamaterial structures

2007

We present a software tool specialized in the analysis of metamaterial structures based on planar circuits. The tool implements a formulation for open transversal multilayered structures, which reduces the number of unknowns employed in the problem. Besides, the formulation has been efficiently accelerated by means of a Kummer-like decomposition, extracting the singular behaviour of the Green's functions from the frequency analysis. By means of this formulation, several different kinds of metamaterial structures built in coplanar and microstrip technologies are successfully analyzed, obtaining bandpass and stopband filter responses in a fast and accurate way. (7 pages)

EngineeringPlanarBand-pass filterbusiness.industryFilter (video)Electronic engineeringDecomposition (computer science)Physics::OpticsMetamaterialStopbandbusinessMicrostripElectronic circuit2nd European Conference on Antennas and Propagation (EuCAP 2007)
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Design of a configurable multispectral imaging system based on an AOTF.

2011

In this paper, we present a configurable multispectral imaging system based on an acousto-optic tunable filter (AOTF). Typically, AOTFs are used to filter a single wavelength at a time, but thanks to the use of a versatile sweeping frequency generator implemented with a direct digital synthesizer, the imager may capture a configurable spectral range. Experimental results show a good spectral and imaging response of the system for spectral bandwidth up to a 50 nm.

EngineeringSignal generatorAcoustics and Ultrasonicsbusiness.industryMultispectral imageBandwidth (signal processing)ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONPhysics::OpticsFilter (signal processing)Direct digital synthesizerComputer Science::Computer Vision and Pattern RecognitionElectronic engineeringRadio frequencyElectrical and Electronic EngineeringImage sensorbusinessOptical filterInstrumentationIEEE transactions on ultrasonics, ferroelectrics, and frequency control
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Phase imaging via compressive sensing

2013

This communication develops a novel framework for phase imaging at optical wavelength by merging digital lenless phase-shifting holography with single-pixel optical imaging based on compressive sensing.

Engineeringbusiness.industryComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISIONinitHolographyPhysics::Opticslaw.inventionCompressed sensingOptical imagingOpticslawComputer Science::Computer Vision and Pattern RecognitionPhase imagingMedical imagingImaging sciencebusinessDigital holography
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Optical Dark Rogue Wave

2016

AbstractPhotonics enables to develop simple lab experiments that mimic water rogue wave generation phenomena, as well as relativistic gravitational effects such as event horizons, gravitational lensing and Hawking radiation. The basis for analog gravity experiments is light propagation through an effective moving medium obtained via the nonlinear response of the material. So far, analogue gravity kinematics was reproduced in scalar optical wave propagation test models. Multimode and spatiotemporal nonlinear interactions exhibit a rich spectrum of excitations, which may substantially expand the range of rogue wave phenomena and lead to novel space-time analogies, for example with multi-parti…

Event horizonWave propagationPhysics::Opticshawking radiation01 natural sciencesArticleblack-holes010305 fluids & plasmasGravitationGeneral Relativity and Quantum Cosmology[NLIN.NLIN-PS]Nonlinear Sciences [physics]/Pattern Formation and Solitons [nlin.PS]0103 physical sciencesRogue wave010306 general physicsPhysics[PHYS.PHYS.PHYS-OPTICS]Physics [physics]/Physics [physics]/Optics [physics.optics]Bose-Einstein condensateMultidisciplinaryBirefringenceMulti-mode optical fiberbusiness.industryPolarization (waves)Quantum electrodynamicsBose-Einstein condensate; hawking radiation; black-holesBose-Einstein condensate;Hawking radiation; black-holes; analog; gravity; horizon; fibers; laserPhotonicsTelecommunicationsbusinessScientific Reports
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"Table 5" of "Measurement of the hadronic photon structure function at LEP1 for values between 9.9-GeV**2 and 284-GeV**2."

1999

Bin to bin correlations in the extracted values of the photon structure function F2.

F2PhotoproductionElectron productionE+ E- --> E- E+ HADRONSCORRE+ E- ScatteringStructure FunctionPhysics::OpticsExclusiveGAMMA* GAMMA --> HADRONS0.0
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"Table 7" of "Measurement of the hadronic photon structure function at LEP1 for values between 9.9-GeV**2 and 284-GeV**2."

1999

Bin to bin correlations in the extracted values of the photon structure function F2.

F2PhotoproductionElectron productionE+ E- --> E- E+ HADRONSCORRE+ E- ScatteringStructure FunctionPhysics::OpticsExclusiveGAMMA* GAMMA --> HADRONS0.0
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"Table 9" of "Measurement of the hadronic photon structure function at LEP1 for values between 9.9-GeV**2 and 284-GeV**2."

1999

Bin to bin correlations in the extracted values of the photon structure function F2.

F2PhotoproductionElectron productionE+ E- --> E- E+ HADRONSCORRE+ E- ScatteringStructure FunctionPhysics::OpticsExclusiveGAMMA* GAMMA --> HADRONS0.0
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